Structural Changes and Thermal Stability of Charged LiNi  x  Mn  y  Co  z  O 2  Cathode Materials Studied by Combined  In Situ  Time-Resolved XRD and Mass Spectroscopy

Bak, Seong‐Min; Hu, Enyuan; Zhou, Yong‐Ning; Yu, Xiqian; Senanayake, Sanjaya D.; Cho, Sung Jin; Kim, Kwang‐Bum; Chung, Kyung Yoon; Yang, Xiao‐Qing; Nam, Kyung‐Wan

doi:10.1021/am506712c

articleACS Applied Materials & InterfacesNov 24, 2014GREEN OA

Structural Changes and Thermal Stability of Charged LiNi x Mn y Co z O 2 Cathode Materials Studied by Combined In Situ Time-Resolved XRD and Mass Spectroscopy

SBSeong‐Min Bak EHEnyuan Hu YZYong‐Ning Zhou XYXiqian Yu SDSanjaya D. Senanayake

Brookhaven National Laboratory · Johnson Controls (United States) · +4 more institutions

PubMed

Indexed incrossrefpubmed

Abstract

Thermal stability of charged LiNixMnyCozO2 (NMC, with x + y + z = 1, x:y:z = 4:3:3 (NMC433), 5:3:2 (NMC532), 6:2:2 (NMC622), and 8:1:1 (NMC811)) cathode materials is systematically studied using combined in situ time-resolved X-ray diffraction and mass spectroscopy (TR-XRD/MS) techniques upon heating up to 600 °C. The TR-XRD/MS results indicate that the content of Ni, Co, and Mn significantly affects both the structural changes and the oxygen release features during heating: the more Ni and less Co and Mn, the lower the onset temperature of the phase transition (i.e., thermal decomposition) and the larger amount of oxygen release. Interestingly, the NMC532 seems to be the optimized composition to maintain a…

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Keywords

Materials science
Thermal stability
Thermal decomposition
Cathode
Spinel
Nickel
Octahedron
Transition metal

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